146TB 146DY EC DECAY 1987ZU02 16NDS 201609
146TB H TYP=FUL$AUT=Yu. KHAZOV, A. RODIONOV AND G. SHULYAK$
146TB2 H CIT=NDS 136, 163 (2016)$CUT=14-Jul-2016$
146TB c 1987Zu02,1988ZuZZ: {+146}Dy |e decay [from Gd({+3}He,xn), E=280 MeV];
146TB2c measured E|g, I|g(t), E(X-ray), I(X-ray)(t), |g|g, |g(X-ray) coin,
146TB3c I(ce). {+146}Tb; deduced levels, J|p, |g multipolarities,
146TB4c configuration, log| {Ift}. Mass-separator, tape transport system, Ge
146TB5c detectors, magnetic selector and Si(Li) detector
146TB c 1982No08: {+146}Dy |e decay [from {+90}Zr({+58}Ni,2p), E=233-250 MeV];
146TB2c measured E|g, I|g(t), |g|g coin, T{-1/2}. {+146}Tb; deduced levels,
146TB3c J|p.
146TB c The level scheme of {+146}Tb contains 97% of the observed {+146}Dy
146TB2c |e decay |g ray intensity (1987Zu02).
146TB c Others: 1981Al23, 1993Al03
146TB CG RI$IF DRI NOT GIVEN, +-10.00% ASSUMED FOR INTENSITY BALANCE
146TB cG E,TI$Taken from fig. 1 of 1987Zu02; |DE|g=0.2, if E|g|<500 keV, and
146TB2cG |DE|g=0.3, if E|g>500 keV (1987Zu02). Transition intensity is given
146TB3cG per 100 {+146}Dy decays, |D(I(|g+ce))'s are not stated in 1987Zu02;
146TB4cG for intensity balance calculations evaluators assume this to be equal
146TB5cG 10% for all the transitions.
146TB cG M$From 1987Zu02 (|a(K)exp values were measured but not given)
146TB cL E$From a least-squares fit to E|g's; normalized |h{+2}=0.2
146TB cL E(A)$Configuration: |pd{+-1}\{-5/2}|nd{+-1}\{-3/2} (1987Zu02)
146TB cL T$From I|g(t) 1982No08
146TB cL J$From 1988ZuZZ.
146TB DG CC$FROM BrIcc v2.3a (10-Sep-2014) 2008Ki07, "Frozen Orbitals" appr.
146DY P 0.0 0+ 33.2 S 7 5210 50
146TB N 1.0 1.0 1.0
146TB cN NT$from I(|g+ce) per 100 decays of {+146}Dy (1987Zu02)
146TB cN $Net feeding on the basis of transition intensity balance
146TB2cN calculations at the levels. I(|e+|b{++})(g.s.)=21% {I5} is given
146TB3cN (1987Zu02) based upon measured I(K) X-ray considering the internal
146TB4cN conversion and fluorescence yield.
146TB PN 3
146TB L 0.0 1+ 8 S 4
146TBF L FLAG=A
146TB E 16 5 5.0 14 5.24 13 21 5
146TBS E EAV=1910 24$CK=0.199 6$CL=0.0293 8$CM+=0.00855 24
146TB cE TI$21% {I5} was estimated by 1987Zu02 from measurements of I(X-rays)
146TB L 241.0910 (1+)
146TB E 2.4 10 0.9 4 5.94 19 3.3 13
146TBS E EAV=1797 24$CK=0.227 7$CL=0.0334 10$CM+=0.0097 3
146TB G 241.1 2 M1 0.187 12.60
146TBS G K/T=0.1332 17$L/T=0.0191 3$M/T=0.00417 6
146TBS G N/T=0.000964 14$O/T=0.0001487 22$P/T=9.85E-6 15
146TBS G KC=0.1581 23$LC=0.0227 4$MC=0.00495 7
146TBS G NC=0.001145 17$OC=0.000177 3$PC=1.170E-5 17
146TB L 280.19 12 +
146TB E 1.4 14 0.6 6 6.1 5 2.0 18
146TBS E EAV=1779 24$CK=0.231 7$CL=0.0341 10$CM+=0.0100 3
146TB G 280.2 2 M1 0.1247 16.57
146TBS G K/T=0.0938 12$L/T=0.01340 19$M/T=0.00292 5
146TBS G N/T=0.000676 10$O/T=0.0001043 15$P/T=6.92E-6 10
146TBS G KC=0.1055 15$LC=0.01507 22$MC=0.00329 5
146TBS G NC=0.000760 11$OC=0.0001173 17$PC=7.79E-6 11
146TB cG RI$53% {I15} in 1982No08
146TB L 338.15 13 (3)+
146TB E 0.9 7 0.4 3 6.3 4 1.3 9
146TBS E EAV=1752 24$CK=0.239 7$CL=0.0352 10$CM+=0.0103 3
146TB G 338.1 2 E2 0.0435 8.01
146TBS G K/T=0.0322 5$L/T=0.00737 11$M/T=0.001674 24
146TBS G N/T=0.000381 6$O/T=5.40E-5 8$P/T=2.05E-6 3
146TBS G KC=0.0336 5$LC=0.00769 11$MC=0.001747 25
146TBS G NC=0.000397 6$OC=5.64E-5 8$PC=2.14E-6 3
146TB cG RI$5% {I1} in 1982No08
146TB L 354.8511 1+
146TB E 3.1 4 1.3 2 5.77 7 4.4 6
146TBS E EAV=1744 24$CK=0.241 7$CL=0.0355 10$CM+=0.0104 3
146TB G 74.7 2 M1 5.09 9 1.64
146TBS G K/T=0.704 6$L/T=0.1032 21$M/T=0.0225 5
146TBS G N/T=0.00521 11$O/T=0.000802 17$P/T=5.26E-5 11
146TBS G KC=4.29 7$LC=0.628 10$MC=0.1373 22
146TBS G NC=0.0317 5$OC=0.00488 8$PC=0.000320 6
146TB G 113.7 2 1.07
146TB G 354.9 2 M1 0.0666 4.87
146TBS G K/T=0.0529 7$L/T=0.00750 11$M/T=0.001634 23
146TBS G N/T=0.000378 6$O/T=5.83E-5 9$P/T=3.89E-6 6
146TBS G KC=0.0564 8$LC=0.00800 12$MC=0.001743 25
146TBS G NC=0.000403 6$OC=6.22E-5 9$PC=4.15E-6 6
146TB L 384.6512 +
146TB E 1.1 8 0.5 3 6.2 3 1.6 10
146TBS E EAV=1730 24$CK=0.245 7$CL=0.0361 10$CM+=0.0105 3
146TB G 143.5 2 0.42
146TB G 384.6 2 M1 0.0540 8.81
146TBS G K/T=0.0434 6$L/T=0.00614 9$M/T=0.001337 19
146TBS G N/T=0.000309 5$O/T=4.77E-5 7$P/T=3.18E-6 5
146TBS G KC=0.0457 7$LC=0.00647 9$MC=0.001409 20
146TBS G NC=0.000326 5$OC=5.03E-5 7$PC=3.36E-6 5
146TB L 397.9923
146TB E 0.88 9 0.36 4 6.30 5 1.25 13
146TBS E EAV=1724 24$CK=0.247 7$CL=0.0364 11$CM+=0.0106 3
146TB G 117.8 2 1.25
146TB L 565.9113
146TB E 0.9 4 0.42 19 6.21 21 1.3 6
146TBS E EAV=1646 24$CK=0.270 8$CL=0.0399 12$CM+=0.0116 4
146TB G 285.7 2 0.50
146TB G 324.8 2 1.76
146TB G 565.9 3 3.37
146TB L 574.9524
146TB E 0.49 6 0.24 3 6.46 6 0.74 8
146TBS E EAV=1642 24$CK=0.272 8$CL=0.0401 12$CM+=0.0117 4
146TB G 236.8 2 0.74
146TB L 618.4 3 (1+)
146TB E 1.04 11 0.51 6 6.11 6 1.57 16
146TBS E EAV=1621 24$CK=0.278 8$CL=0.0411 12$CM+=0.0120 4
146TB G 618.4 3 1.57
146TB L 653.1518 +
146TB E 0.14 LE 0.071 LE 7.0 GE 0.2 LE
146TBS E EAV=1605 24$CK=0.284 8$CL=0.0419 12$CM+=0.0122 4
146TB G 268.4 2 M1 0.1400 1.51
146TBS G K/T=0.1038 14$L/T=0.01486 21$M/T=0.00324 5
146TBS G N/T=0.000749 11$O/T=0.0001156 17$P/T=7.67E-6 11
146TBS G KC=0.1184 17$LC=0.01694 24$MC=0.00369 6
146TBS G NC=0.000854 12$OC=0.0001318 19$PC=8.74E-6 13
146TB L 660.3113 +
146TB E 0.5 3 0.3 2 6.4 3 0.8 4
146TBS E EAV=1602 24$CK=0.285 8$CL=0.0421 12$CM+=0.0123 4
146TB G 305.5 2 0.44
146TB G 322.1 2 M1 0.0860 1.54
146TBS G K/T=0.0670 9$L/T=0.00954 14$M/T=0.00208 3
146TBS G N/T=0.000481 7$O/T=7.42E-5 11$P/T=4.94E-6 7
146TBS G KC=0.0728 11$LC=0.01036 15$MC=0.00226 4
146TBS G NC=0.000522 8$OC=8.06E-5 12$PC=5.36E-6 8
146TB G 419.3 2 0.95
146TB G 660.3 3 1.09
146TB L 664.8323
146TB E 0.7 3 0.37 14 6.24 16 1.1 4
146TBS E EAV=1600 24$CK=0.286 8$CL=0.0422 12$CM+=0.0123 4
146TB G 664.9 3 2.80
146TB L 682.1417 (1+)
146TB E 0.97 16 0.51 8 6.10 8 1.46 22
146TBS E EAV=1592 24$CK=0.288 8$CL=0.0426 12$CM+=0.0124 4
146TB G 441.1 2 1.17
146TB G 682.1 3 1.42
146TB L 920.0 3 (1+)
146TB E 0.51 6 0.33 4 6.25 6 0.84 9
146TBS E EAV=1482 24$CK=0.329 10$CL=0.0486 14$CM+=0.0142 4
146TB G 920.0 3 0.84
146TB L 1162.3 4
146TB E 0.40 5 0.33 4 6.20 6 0.73 8
146TBS E EAV=1370 23$CK=0.376 11$CL=0.0556 16$CM+=0.0162 5
146TB G 882.1 3 0.73
146TB L 1696.1 3
146TB E 0.71 8 1.04 12 5.57 6 1.76 18
146TBS E EAV=1126 23$CK=0.497 13$CL=0.0738 19$CM+=0.0215 6
146TB G 1696.1 3 1.76
146TB L 1726.96141+
146TB E 7.4 4 11.2 6 4.53 4 18.7 8
146TBS E EAV=1112 23$CK=0.504 13$CL=0.0750 19$CM+=0.0219 6
146TB G 1062.2 3 1.67
146TB G 1066.8 3 3.27
146TB G 1073.4 3 0.95
146TB G 1161.2 3 3.81
146TB G 1342.3 3 2.49
146TB G 1372.2 3 1.32
146TB G 1388.8 3 2.27
146TB G 1446.7 3 2.93
146TB L 1737.40151+
146TB E 3.4 2 5.1 3 4.87 4 8.6 5
146TBS E EAV=1107 23$CK=0.507 13$CL=0.0753 19$CM+=0.0220 6
146TB G 1084.4 3 0.66
146TB G 1171.2 3 0.51
146TB G 1352.8 3 2.64
146TB G 1399.3 3 0.73
146TB G 1496.3 3 0.67
146TB G 1737.4 3 3.37
146TB L 1923.8 3
146TB E 0.30 3 0.57 6 5.77 6 0.88 9
146TBS E EAV=1022 23$CK=0.554 13$CL=0.0824 20$CM+=0.0241 6
146TB G 1923.8 3 0.88
146TB L 2082.01151+
146TB E 3.5 3 8.4 6 4.56 4 12.0 7
146TBS E EAV=951 23$CK=0.594 13$CL=0.0886 20$CM+=0.0259 6
146TB G 1727.1 3 0.70
146TB G 1743.8 3 1.39
146TB G 1801.8 3 5.87
146TB G 1841.0 3 1.39
146TB G 2082.0 3 2.64
146TB L 2156.80141+
146TB E 4.1 4 11.0 8 4.42 4 15.2 10
146TBS E EAV=917 23$CK=0.613 13$CL=0.0915 20$CM+=0.0267 6
146TB G 1474.7 3 1.13
146TB G 1772.1 3 1.03
146TB G 1801.8 3 0.73
146TB G 1876.7 3 1.61
146TB G 1915.7 3 1.87
146TB G 2156.8 3 8.80